Auxiliary bearing system with oil ring for magnetically supported rotor system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16C-019/00
F16C-001/24
출원번호
US-0900606
(2010-10-08)
등록번호
US-8408806
(2013-04-02)
발명자
/ 주소
Tecza, Joseph A.
출원인 / 주소
Dresser-Rand Company
대리인 / 주소
Edmonds & Nolte, PC
인용정보
피인용 횟수 :
1인용 특허 :
59
초록▼
An auxiliary bearing system having a sleeve through which a shaft extends. A gap may be defined between the sleeve and the shaft when a primary bearing system supports the shaft, and the sleeve may engage and rotate with the shaft when the primary bearing system does not support the shaft. An oil ri
An auxiliary bearing system having a sleeve through which a shaft extends. A gap may be defined between the sleeve and the shaft when a primary bearing system supports the shaft, and the sleeve may engage and rotate with the shaft when the primary bearing system does not support the shaft. An oil ring may extend circumferentially around the sleeve and rotate in response to the rotating sleeve when the sleeve engages and rotates with the shaft. The rotating oil ring may distribute lubricant within the auxiliary bearing system.
대표청구항▼
1. An auxiliary bearing system, comprising: a sleeve through which a rotating shaft extends, the shaft comprising a first slinger and a second slinger distal from the first slinger, wherein a gap is defined between the sleeve and the shaft when a primary bearing system supports the shaft, and wherei
1. An auxiliary bearing system, comprising: a sleeve through which a rotating shaft extends, the shaft comprising a first slinger and a second slinger distal from the first slinger, wherein a gap is defined between the sleeve and the shaft when a primary bearing system supports the shaft, and wherein the sleeve engages and rotates with the shaft when the primary bearing system does not support the shaft;a bearing mount through which the shaft extends, the bearing mount defining an inside surface;a plurality of oil seals adapted to sealingly engage the shaft, the plurality of oil seals comprising: a first pair of oil seals disposed within the bearing mount and extending radially inward from the inside surface of the bearing mount, the first slinger being axially positioned between the first pair of oil seals; anda second pair of oil seals disposed within the bearing mount and extending radially inward from the inside surface of the bearing mount, the second slinger being axially positioned between the second pair of oil seals; andan oil ring extending circumferentially around the sleeve and rotating in response to the rotating sleeve when the sleeve engages and rotates with the shaft, wherein the rotating oil ring distributes lubricant within the auxiliary bearing system. 2. The auxiliary bearing system of claim 1, further comprising: a reservoir formed in the bearing mount in which the lubricant is contained, wherein the oil ring contacts the lubricant in the reservoir. 3. The auxiliary bearing system of claim 2, further comprising: a plurality of drain passages formed in the bearing mount through which the lubricant drains back into the reservoir after being distributed, a first drain passage of the plurality of drain passages being positioned between the first pair of oil seals and a second drain passage of the plurality of drain passages being positioned between the second pair of oil seals. 4. The auxiliary bearing system of claim 2, further comprising: a cartridge flexibly mounted to the bearing mount; anda plurality of bearings mounted within the cartridge and extending circumferentially around the sleeve, wherein each of the bearings is adapted to support a radial load. 5. The auxiliary bearing system of claim 4, wherein the oil ring is positioned axially between one of the plurality of bearings and one of the plurality of oil seals. 6. The auxiliary bearing system of claim 4, wherein the oil ring is positioned axially between two of the plurality of bearings. 7. The auxiliary bearing system of claim 4, further comprising: a first annular ring and a second annular ring coupled to the bearing mount and between which the cartridge is disposed, each of the first annular ring and the second annular ring being adapted to support an axial load. 8. The auxiliary bearing system of claim 1, further comprising: a ring guide extending circumferentially around the sleeve, wherein the oil ring extends circumferentially around the ring guide. 9. A method of supporting a shaft, the method comprising: rotating a shaft, the shaft comprising a first slinger and a second slinger distal from the first slinger;supporting the shaft with a primary bearing system during normal operation; andsupporting the shaft with an auxiliary bearing system when the primary bearing system is not supporting the shaft, the auxiliary bearing system comprising a bearing mount, the step of supporting the shaft with the auxiliary bearing system comprising: engaging the shaft with a sleeve disposed circumferentially around the shaft;rotating the sleeve in response to the rotating shaft;rotating an oil ring in response to the rotating sleeve, the oil ring being disposed circumferentially around the sleeve;collecting lubricant from a reservoir with the rotating oil ring;distributing the lubricant within the auxiliary bearing system with the rotating oil ring; andsealing the distributed lubricant within the auxiliary bearing system via a plurality of oil seals adapted to sealingly engage the shaft, the plurality of oil seals comprising: a first pair of oil seals disposed within the bearing mount and extending radially inward from an inside surface defined by the bearing mount, the first slinger being axially positioned between the first pair of oil seals; anda second pair of oil seals disposed within the bearing mount and extending radially inward from the inside surface of the bearing mount, the second slinger being axially positioned between the second pair of oil seals. 10. The method of claim 9, wherein the primary bearing system comprises a magnetic bearing system, and wherein supporting the shaft with the primary bearing system comprises: levitating the shaft, relative to the sleeve, with the magnetic bearing system. 11. The method of claim 9, further comprising: draining the lubricant back into the reservoir after distributing the lubricant within the auxiliary bearing system. 12. The method of claim 9, wherein supporting the shaft with the auxiliary bearing system further comprises: supporting a radial load with at least one bearing, wherein the at least one bearing extends circumferentially around the sleeve. 13. The method of claim 12, wherein the at least one bearing is mounted in a cartridge and the cartridge is disposed between a first annular ring and a second annular ring, and wherein supporting the shaft with the auxiliary bearing system further comprises: supporting an axial load with at least one of the first annular ring and the second annular rings. 14. A rotor system, comprising: a rotating shaft having a first slinger and a second slinger distal from the first slinger;a first bearing system configured to support the shaft during normal operation of the rotor system; anda second bearing system configured to support the shaft when the first bearing system is not supporting the shaft, the second bearing system comprising: a sleeve through which the shaft extends, wherein a gap is defined between the sleeve and the shaft when the first bearing system supports the shaft, and wherein the sleeve engage and rotates with the rotating shaft when the second bearing system supports the shaft;an oil ring extending circumferentially around the sleeve and the shaft, the oil ring configured to rotate in response to the rotation of the sleeve;a lubricant-containing reservoir disposed below the shaft, wherein the oil ring is in contact with the lubricant in the reservoir and distributes the lubricant within the second bearing system when the oil ring rotates, thereby lubricating and cooling the second bearing system;a bearing mount in which the reservoir is formed and through which the shaft extends, the bearing mount defining an inside surface; anda plurality of oil seals adapted to sealingly engage the shaft, the plurality of oil seals comprising: a first pair of oil seals disposed within the bearing mount and extending radially inward from the inside surface of the bearing mount, the first slinger being axially positioned between the first pair of oil seals; anda second pair of oil seals disposed within the bearing mount and extending radially inward from the inside surface of the bearing mount, the second slinger being axially positioned between the second pair of oil seals. 15. The rotor system of claim 14, wherein the shaft rotates and the sleeve and the oil ring are generally stationary when the first bearing system supports the shaft. 16. The rotor system of claim 15, wherein the first bearing system comprises a magnetic bearing system. 17. The rotor system of claim 14, wherein the second bearing system further comprises: a plurality of drain passages formed in the bearing mount and through which the lubricant drains back into the reservoir after being distributed. 18. The rotor system of claim 17, wherein the second bearing system further comprises: a ring guide on which the oil ring is positioned, the ring guide extending circumferentially around the sleeve and the shaft;a cartridge flexibly mounted to the bearing mount; anda plurality of bearings mounted within the cartridge and extending circumferentially around the sleeve, each of the bearings being adapted to support a radial load. 19. The rotor system of claim 18, wherein the second bearing system further comprises: a first shoulder and a second shoulder extending radially outward from the shaft and between which the sleeve is positioned; anda first annular ring and a second annular ring coupled to the bearing mount and between which the cartridge is disposed;wherein one or more of the first shoulder and the second shoulder and the first annular ring and the second annular ring are adapted to support an axial load. 20. The rotor system of claim 14, wherein the first bearing system comprises a magnetic bearing system, and wherein the second bearing system further comprises: a ring guide on which the oil ring is positioned, the ring guide extending circumferentially around the sleeve and the shaft;a plurality of drain passages formed in the bearing mount and via which the lubricant drains back into the reservoir after being distributed;a cartridge flexibly mounted to the bearing mount; anda plurality of bearings mounted within the cartridge and extending circumferentially around the sleeve.
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이 특허에 인용된 특허 (59)
Girault Jean-Philippe (Tourny FRX), Active radial magnetic bearing combined with a back-up bearing.
Matthias Heinz-Bernd (Frankenthal DT) Klepp Christian (Frankenthal DT) Koll Gunter (Frankenthal-Studernheim DT), Lubricated thrust bearings for pump and motor units.
Lewis David W. (Charlottesville VA) Humphris Robert R. (Charlottesville VA) Maslen Eric H. (Charlottesville VA) Allaire Paul E. (Charlottesville VA) Williams Ronald D. (Charlottesville VA) Yates Stev, Magnetic bearing systems.
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